KR100330146B1 - Cathode ray tube - Google Patents

Abstract

In order to effectively reduce the deflection power while having a sufficient internal-pressure intensity, a cathode ray tube which can be utilized as a color television or a computer monitor, has an outer shape of a funnel on which a deflection yoke is mounted is gradually moved from a neck side to a panel side Wherein rh is the radius of the panel in the major axis direction, and rv is the radius of the panel in the minor axis direction, the panel side opening of the deflection yoke is located at a position The outer shape of the funnel .

Description

Cathode ray tube

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cathode ray tube, and more particularly, to a cathode ray tube which realizes a reduction in deflection power.

The cathode ray tube realizes an image by deflecting the electron beam emitted from the electron gun in the horizontal and vertical directions with respect to the screen so that the electron beam is landed on the phosphor of the screen. Here, the deflection of the electron beam is made by a deflection yoke mounted on the outer periphery of the funnel of the cathode ray tube to form horizontal and vertical magnetic fields.

Such a cathode ray tube is mainly used as a color television or a computer monitor, and has recently been applied as a high-quality product such as a high-definition television (HDTV).

Here, in order to improve the quality of the cathode ray tube, such as applying to the high-definition television or other office automation (OA) apparatus or improving the brightness of the screen, a technique of increasing the deflection frequency of the deflection yoke is applied. There arises a problem such as an increase in leakage magnetic field and power consumption due to an increase in electric power.

That is, the problem caused by the increase of deflection power is an important problem in improving the quality of the cathode ray tube.

Thus, conventionally, a technique for increasing the efficiency of the deflection yoke with respect to the electron beam by reducing the diameter of the neck portion of the cathode ray tube and the outer diameter of the neck portion side of the funnel has been introduced into the cathode ray tube. At this time, The electron beam collides with the inner wall of the neck portion of the funnel, thereby causing difficulty in achieving a good image.

Therefore, in order to solve such a problem in recent years, a technique has been proposed in which the outer shape of the funnel on which the deflection yoke is mounted is changed from a circular shape to an elliptical shape toward the panel side from the neck portion side. That is, according to this technique, the outer shape of the neck side of the funnel is made rectangular so that the size of this portion is smaller than that of the conventional art. As a result, the deflection power is reduced, and the electron beam is prevented from colliding with the inner surface of the funnel.

However, when the external shape of the neck portion side of the funnel is made rectangular at this time without merely taking account of the orbit of the electron beam, the strength of the internal pressure against this portion is lowered and the stability of the cathode ray tube is deteriorated There will be possession.

In other words, the cathode ray tube to which the above-described technique is applied has an effective side when viewing only a reduction image of the deflection electric power or the leakage magnetic field. However, for practical use, the curtain must have a certain degree of curvature on the side of the neck of the funnel, As a result, the deflection power can not be sufficiently reduced.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a cathode ray tube which is designed to optimize the outline of a funnel on which a deflection yoke is mounted so as to effectively reduce deflection power.

In order to achieve the above object,

A panel on which a screen is formed;

A funnel in which a deflection yoke is installed on the outer circumference while being connected to the panel;

And a neck portion connected to the funnel and having an electron gun inserted therein,

The outer shape of the funnel at the portion where the deflection yoke is installed is formed into a noncircular shape having a maximum diameter in a direction other than a major axis and a minor axis of the panel gradually from the neck portion toward the panel side,

The outer shape of the funnel where the panel-side opening of the deflection yoke is located is made to satisfy the following expression.

here,

rh is the radius of the panel in the major axis direction,

and rv is the short axis radius of the panel.

The outer shape of the funnel in which the panel side opening of the deflection yoke is located is defined as a deflection center position on the tube axis of the cathode ray tube as the deflection reference position, More and more Value closer to 1, and the closer to the panel side Value is increased beyond one.

When the deflection center position on the tube axis of the cathode ray tube is defined as a deflection reference position, the outer shape of the funnel corresponding to the deflection reference position is defined by the following expression.

here,

rh is the radius of the panel in the major axis direction,

and rv is the short axis radius of the panel.

1 is a perspective view illustrating a cathode ray tube according to an embodiment of the present invention,

FIG. 2 is a schematic sectional view cut along the diagonal direction of the cathode ray tube panel shown in FIG. 1,

FIG. 3 is a view for explaining the external appearance of the joint between the funnel and the neck of the cathode ray tube according to the embodiment of the present invention,

4 is a view for explaining the outline of a funnel portion where a deflection yoke is mounted in a cathode ray tube according to an embodiment of the present invention,

5 is a view for explaining the ratio of the outer shape of the funnel portion where the deflection yoke is mounted to non-circular in the cathode ray tube according to the embodiment of the present invention,

6 is a graph showing a relationship between a funnel and a deflection power of a cathode ray tube according to an embodiment of the present invention,

7 is a graph showing the relationship between the funnel of the cathode ray tube and the leakage magnetic field according to the embodiment of the present invention.

Hereinafter, preferred embodiments for clarifying the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view showing a cathode ray tube according to an embodiment of the present invention, and FIG. 2 is a schematic sectional view cut along the diagonal direction of a panel of the cathode ray tube shown in FIG.

As shown in the figure, the cathode ray tube comprises a panel 3 formed in a substantially rectangular shape and having a phosphor screen 1 formed on its inner surface, and a panel 3 connected to the panel 3 and having a deflection yoke 5 And a neck portion 11 which is connected to the rear of the funnel 7 and into which an electron gun 9 is inserted. The funnel 7 has a funnel-

As is well known, such a cathode ray tube deflects the electron beam emitted from the electron gun 9 to the deflection yoke 5 and passes through the electron beam passage hole of the shadow mask 13 installed inside the panel 3 And landed on the screen 1, thereby realizing an image.

The cathode ray tube has the following means in order to effectively reduce the deflection power while performing the above-mentioned action.

The outer shape of the funnel 7 on which the deflection yoke 5 is mounted is formed to be circular as it goes toward the side of the neck 11 and the outer surface of the panel 3) having a maximum diameter in a direction other than the long axis and the short axis direction.

Further, in the cathode ray tube, the outer shape of the funnel 7 at a position where the panel-side opening of the deflection yoke 5 is located satisfies the following formula.

Here, rh denotes a radius of the panel in the major axis direction, and rv denotes a radius in the minor axis direction of the panel.

Particularly, in the cathode ray tube, with respect to the reference reference position (R / L) set on the tube axis, The closer to the side of the neck portion 11, the closer to 1 toward the neck portion 11, Is increased from 1 to form the outline of the funnel 7.

3, the outer shape of the funnel 7 at a portion of the cathode ray tube connected to the neck portion 9 is such that the length of the long axis of the panel 3 from the tube axis Z (H) radius, the short axis direction (v) radius (rd), and the diagonal side (d) radius (rd) have the same circular shape.

On the other hand, as shown in FIG. 4, the outer shape of the funnel 7 toward the panel side 3 is larger than the long-axis direction radius rh and the short-axis direction radius rd with respect to the diagonal- (rv) becomes smaller.

The cathode ray tube has an outer shape of the funnel 7 at the position where the deflection yoke 5 is mounted on the outer surface of the funnel 7 on which the panel side opening of the deflection yoke 5 is located, Is formed according to Equation (1).

The outer shape of the funnel 7 as described above is formed in the present invention because the deflection power is reduced as compared with the previous one through various tests and the inner pressure intensity characteristic and the beam stroke (BSN) characteristic of the electron beam are improved Based on the results.

The outer shape of the funnel 7 corresponding to the deflection reference position R / L in the cathode ray tube is preferably formed by satisfying the following formula (2).

Here, rh represents the radius of the panel in the major axis direction, and rv represents the minor axis radius of the panel.

When the straight line is connected to one point of the tube axis Z of the cathode ray tube at both diagonal ends of the screen 1, the above-mentioned deflection reference position (R / L) Refers to a position that becomes the center of deflection on the tube axis to be the maximum deflection angle [theta] defined by the cathode ray tube, but this is not necessarily limited to this definition.

5, the outer shape of the funnel 7 in which the panel-side opening of the deflection yoke is located is formed in accordance with the above-described conditions, and the deflection efficiency of the cathode ray tube is experimentally measured. As a result, The same result as the value of the graph shown in FIG. 6 was obtained. At this time, the outer shape of the funnel 7 with respect to the deflection reference position (R / L) Lt; RTI ID = 0.0 > 1.14. ≪ / RTI >

That is, as can be seen from FIG. 6, Value is adjusted to a value between 1 and 1.3, it is found that the deflection power of the cathode ray tube is gradually decreased.

7, when the funnel 7 is formed so as to satisfy the above-described conditions, the result of being able to have a leakage magnetic field below the allowable reference value indicated by a straight line is also known there was.

As can be seen from the results, the cathode ray tube can sufficiently realize the reduction of the deflection power by forming the outer shape of the funnel 7 according to the above-mentioned conditions.

Meanwhile, when the cathode ray tube according to the present invention is applied to a cathode ray tube having a deflection angle of 90 degrees and 100 degrees, a desirable effect can be exhibited. Particularly, when applied to a cathode ray tube having a deflection angle of 90 degrees, The value is 1.0? &Amp;le; 1.30, and when the half angle angle is applied to a 100 DEG C cathode ray tube, The value is 1.0? Lt; = 1.25.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but many variations and modifications may be made without departing from the scope of the appended claims, And it goes without saying that they belong to the scope of the present invention.

As described above, in the cathode ray tube according to the present invention, by changing the outer shape of the funnel where the deflection yoke is mounted, the deflection power can be effectively reduced while having sufficient internal-air-pressure intensity, It has an effect that can be provided to the user as a pipe.

Claims (2)

A panel on which a screen is formed; A funnel in which a deflection yoke is installed on the outer circumference while being connected to the panel; And a neck portion connected to the funnel and having an electron gun inserted therein, Wherein an outer shape of the funnel at a portion where the deflection yoke is installed is formed into a non-circular shape having a maximum diameter in a direction other than a major axis and a minor axis of the panel gradually from the neck portion toward the panel side, The outer shape portion of the funnel where the panel side opening of the deflection yoke is located satisfies the following formula, Where rh is the radius of the panel in the major axis direction, and rv is the minor axis radius of the panel, Wherein the outer shape of the funnel where the panel side opening of the deflection yoke is located is defined as a position at which the deflection center becomes the deflection center on the tube axis of the cathode ray tube as the deflection reference position, Value closer to 1, and the closer to the panel side And the value is increased to be greater than one. The cathode ray tube according to claim 1, characterized in that, when a position, which is the center of deflection on the tube axis of the cathode ray tube, is defined as a deflection reference position, the outer shape part of the funnel corresponding to the deflection reference position satisfies the following expression and. here, rh is the major axis radius of the panel, and rv is the minor axis radius of the panel.